CN111805229A - Intelligent assembling production line for oiling machine - Google Patents

Abstract

The invention relates to an intelligent assembling production line of an oiling machine, which comprises a rack assembling station (1), wherein an installation conveying belt (2) is arranged beside the rack assembling station (1), the installation conveying belt (2) is just opposite to a detection station (3), the detection station (3) is just opposite to a panel installation conveying belt (4), and the panel installation conveying belt (4) is just opposite to a packaging conveying belt (5); the detection station (3) comprises a moving track (3.1) arranged on the ground, a moving trolley (3.2) is arranged on the moving track (3.1) in a sliding walking mode, sliding rollers (3.3) are arranged on two sides of the moving trolley (3.2) along the length direction of the moving trolley, and a detection hole (3.4) is formed in the center of the moving trolley (3.2). The intelligent assembling production line for the oiling machine optimizes the production line structure and realizes mechanical overturning of the rack, so that the efficiency is effectively improved, the operation difficulty is reduced, and the safety performance is improved.

Description

Intelligent assembling production line for oiling machine

Technical Field

The invention relates to a production line, in particular to an intelligent production line for assembling oiling machines.

Background

At present, in the production process of the oiling machine, a systematic production line is lacked, and the conventional assembly mode is manual movable assembly, so that the efficiency is low; therefore, enterprises begin to develop a continuous assembly line conveyor belt operation mode, but because the time required by each station is different, and especially the time consumed by the detection station is long, the operation speed of the whole conveyor belt can only be reduced, or the operation of the conveyor belt can only be stopped when the detection station cannot process, so that the whole assembly efficiency is influenced.

Meanwhile, in the production and assembly process of the oiling machine, the rack needs to be transversely arranged on a machine table for assembly, after the assembly is finished, the rack is vertically placed on a production line for internal assembly by manpower or by utilizing a crane to turn the rack by 90 degrees, the whole turning process is not only labor-consuming and low in efficiency, but also has certain potential safety hazard of operation; to this end, an automated device is needed to implement this function.

In addition, due to the requirements of safety and normativity, internal lines of the oiling machine need to penetrate into the metal corrugated pipe, so that the pipeline can be effectively protected, and meanwhile, the signal line is shielded to ensure the reliability of communication; during the use process of the threading corrugated pipe, the nut needs to be hung on the threading corrugated pipe, and then the two ends of the threading corrugated pipe are compressed to prevent the nut from falling out. The conventional operation mode is that a hammer is used for knocking the port of the threading corrugated pipe to compress the corrugated pipes at the port, so that the external threads at the port of the threading corrugated pipe are damaged, and the possibility that the nut falls off is avoided. However, the manual operation method is not only inefficient, but also is prone to hand-hitting accidents, and therefore, a tool structure capable of solving the above problems is needed.

Finally, the oiling machine needs to be tested during the production and manufacturing process of the oiling machine, and the testing method is that test oil is introduced into the oiling machine for detection through an oil pipe embedded under the ground of a workshop; however, two problems are found in practical application, one of the problems is that once the flowmeter on the embedded oil pipe is blocked, the flowmeter is inconvenient to disassemble during maintenance, and the testing efficiency is influenced; meanwhile, when the oil pipe is connected with an oil filling pipeline of the oiling machine through the flange plate, the oil filling pipeline is positioned at the bottommost part of the oiling machine, and a connecting screw hole in the flange plate cannot be found timely and quickly when flange connection is adopted, so that the connection efficiency is low, and the detection efficiency is influenced.

In view of the foregoing, there is a need for an intelligent tanker assembly line that addresses the above-mentioned problems.

Disclosure of Invention

The invention aims to overcome the defects and provide an intelligent oiling machine assembly production line, which optimizes the production line structure and realizes mechanical turnover of a rack, thereby effectively improving the efficiency, reducing the operation difficulty and increasing the safety performance; simultaneously, detect after the station lateral shifting and detect to utilize to improve connection structure so that utilize the clamp to install fast, improve detection efficiency.

The purpose of the invention is realized as follows:

an intelligent oiling machine assembly production line comprises a frame assembly station, wherein an installation conveying belt is arranged beside the frame assembly station and is over against a detection station, a panel installation conveying belt is over against the detection station, and the panel installation conveying belt is over against a packaging conveying belt; the detection station comprises a moving track arranged on the ground, a moving trolley is arranged on the moving track in a sliding walking mode, sliding rollers are arranged on two sides of the moving trolley along the length direction of the moving trolley, a detection hole is formed in the center of the moving trolley, and the length direction of the moving track is perpendicular to the length direction of the moving trolley;

the automatic overturning tool for the oiling machine frame is mounted on the frame assembling station and comprises a base, a rest frame is mounted at one end of the base, an overturning motor assembly is mounted at the other end of the base, a buffer is mounted on the rest frame, and a driving pinion is sleeved on a rotating shaft of the overturning motor assembly;

one end of the large overturning frame is placed on the buffer, the other end of the large overturning frame is hinged to the base through a large overturning shaft which is vertically arranged downwards and is connected with the lug plate, a pneumatic positioning pin is vertically arranged on the large overturning frame, and a driven large gear which is meshed with the driving small gear is sleeved on the large overturning shaft;

one end of the large overturning frame, which is positioned above the large overturning shaft, is hinged with a small overturning frame through a small overturning shaft;

the invention relates to an automatic overturning tool for a frame of an oiling machine, wherein a small motor assembly is fixedly arranged on the bottom surface of a large overturning frame, the small motor assembly drives a first transition shaft to rotate, the first transition shaft is parallel to a small overturning shaft, two parallel second transition shafts are perpendicular to the small overturning shaft, and two ends of the second transition shaft are respectively in meshing transmission with the first transition shaft and the small overturning shaft through bevel gears.

The invention relates to an automatic overturning tool for an oiling machine rack.

The invention relates to an automatic overturning tool for a frame of an oiling machine.

The invention relates to an automatic overturning tool for an oiling machine rack.

The other threading bellows suppression frock for oiling machine that is provided with and is used for suppressing oiling machine threading bellows that is used for installing the conveyer belt includes the work platen, install portal frame and suppression cylinder on the work platen, and the pressure head of connecting on the piston rod of suppression cylinder is just pressing from both sides tight piece under installing in the portal frame, die clamping cylinder is installed at the portal frame top, and die clamping cylinder's piston rod passes behind the portal frame and is connected with last tight piece, and goes up and press from both sides tight piece and be located under and press from both sides directly over tight piece.

The invention relates to a threading corrugated pipe pressing tool for an oiling machine, wherein semicircular grooves are formed in the lower bottom surface of an upper clamping block and the upper surface of a lower clamping block, two semicircular grooves form a circular groove hole after the upper clamping block and the lower clamping block are closed, and the circular groove hole and a pressure head of a rod-shaped structure are positioned on the same straight line.

The invention relates to a threading corrugated pipe pressing tool for an oiling machine, wherein a protective plate is packaged on the side surface of a portal frame, a through hole for a threading corrugated pipe to pass through is formed in the protective plate, and the through hole and a pressure head are positioned on the same straight line.

The invention relates to a threading corrugated pipe pressing tool for an oiling machine.

At least two groups of oiling detection systems special for oiling machines are arranged below the detection station, and comprise transition pipes which are connected and arranged between an oil inlet pipe and an oil outlet pipe through flanges, flow meters are connected on the transition pipes in series, control valves are connected on the oil inlet pipe and the oil outlet pipe in series, and butt-joint rings are fixedly sleeved on an oil outlet at the end part of the oil outlet pipe; the oil outlet pipe is positioned below the detection hole; a sealing ring is embedded in a sealing groove arranged on the upper ring surface of the butt joint ring, a clamping ring is slidably sleeved on the oil outlet pipe, and a side baffle ring is vertically and upwards arranged on the outer side of the clamping ring; a butt joint flange is sleeved at a port of an oil filling pipeline in the oiling machine, the end face of the butt joint flange is pressed on a sealing ring of a butt joint ring, the clamping ring moves upwards to be attached to the butt joint ring, and a side retaining ring wraps the butt joint flange; a plurality of clamps are clamped between the butt flange and the clamping ring.

The invention relates to an oiling detection system special for an oiling machine.A clamping boss with an annular structure is arranged on the butt joint end face of a butt joint flange, and the clamping boss is positioned between the outer wall of a butt joint ring and the inner wall of a side retaining ring.

The invention relates to an oiling detection system special for an oiling machine, wherein a sealing caulking groove is arranged on the butt joint end face of a butt joint flange, and after a butt joint ring and the butt joint flange are closed, a sealing ring is embedded in the sealing caulking groove.

The invention relates to an oiling detection system special for an oiling machine, wherein an oil outlet pipe is a metal corrugated pipe.

Compared with the prior art, the invention has the beneficial effects that:

the invention arranges the mutually independent conveying belts at each station, thereby being capable of conveniently adjusting the speed according to the time required by the station, and realizing the simultaneous detection of a plurality of devices by arranging the rails at the detection stations, thereby greatly improving the assembly efficiency.

The rack can be conveniently turned over through the turning tool, so that the rack can be conveniently and transversely assembled, the assembled rack transversely arranged can be quickly and safely turned to be in a vertical state, and the subsequent processes can be conveniently assembled.

The invention realizes the clamping and pressing of the threading corrugated pipe in a mechanical mode without manual intervention, thereby improving the efficiency and increasing the safety performance; and whole operation process is more standard unified for the end suppression effect of threading bellows tends to unanimous, compares with manual operation mode, and the product outward appearance effect after the operation is more unanimous, has improved the outward appearance aesthetic property of product.

According to the invention, the transition pipe is arranged through flange connection when a pipeline is buried at the bottom of a workshop, and the access hole is arranged above the transition pipe, so that the transition pipe can be conveniently detached for maintenance after the control valve is closed when maintenance is needed.

Simultaneously, through closing the mode and carrying out the quick butt joint after, need not to look for the screw and connect after aligning it, only need simply to close clip on the after-poppet and can accomplish the butt joint to very big improvement detection efficiency.

Drawings

Fig. 1 is a schematic structural diagram of an intelligent oiling machine assembly line.

Fig. 2 is a side view of an automatic turnover fixture for a frame of an oiling machine (frame assembly state) in the invention.

Fig. 3 is a top view of an automatic turnover fixture for a frame of an oiling machine (in a frame assembly state) according to the present invention.

Fig. 4 is a side view of an automatic turnover fixture for a frame of an oiling machine (frame turnover state) in the invention.

Fig. 5 is a top view of an automatic turnover fixture for a frame of an oiling machine (in a frame turnover state) according to the present invention.

Fig. 6 is a schematic structural view of a threading corrugated pipe pressing tool for an oiling machine.

Fig. 7 is a schematic structural diagram of an oiling detection system special for a fuel dispenser in the invention.

Fig. 8 is an enlarged view of a portion I of fig. 7 according to the present invention.

Wherein:

the device comprises a frame assembling station 1, a mounting conveyer belt 2, a detection station 3, a panel mounting conveyer belt 4 and a packaging conveyer belt 5;

a moving track 3.1, a moving trolley 3.2, a sliding roller 3.3 and a detection hole 3.4;

a base 101, a rest 102, a buffer 103, a turnover motor assembly 104 and a driving pinion 105;

a large overturning frame 106, a pneumatic positioning pin 106.1, a connecting lug plate 107, a large overturning shaft 108 and a driven large gear 109;

the device comprises a small roll-over stand 110, a rolling shaft 110.1, a small roll-over shaft 111, a small motor assembly 112, a first transition shaft 113 and a second transition shaft 114;

the device comprises a worktable plate 201, a portal frame 202, a clamping cylinder 203, an upper clamping block 204, a lower clamping block 205, a pressing cylinder 206, a pressure head 207, a protective plate 208 and a protective cover 209;

the oil inlet pipe 301, the transition pipe 302, the flowmeter 303, the oil outlet pipe 304, the butt joint ring 305, the sealing ring 306, the clamping ring 307, the side retaining ring 308, the butt joint flange 309, the clamping boss 310 and the oil filling pipeline 311.

Detailed Description

Referring to fig. 1, the intelligent oiling machine assembly line comprises a frame assembly station 1, wherein an installation conveying belt 2 is arranged beside the frame assembly station 1, the installation conveying belt 2 is over against a detection station 3, the detection station 3 is over against a panel installation conveying belt 4, and the panel installation conveying belt 4 is over against a packaging conveying belt 5;

the detection station 3 comprises a moving track 3.1 arranged on the ground, a moving trolley 3.2 is arranged on the moving track 3.1 in a sliding walking mode, sliding rollers 3.3 are arranged on two sides of the moving trolley 3.2 along the length direction of the moving trolley, a detection hole 3.4 is formed in the center of the moving trolley 3.2, and the length direction of the moving track 3.1 is perpendicular to the length direction of the moving trolley 3.2.

During the use, frame assembly station 1 shifts the frame that the assembly is good to interior device installation on installation conveyer belt 2, and the back that finishes of the installation gets into detection station 3 and detects it, gets into the installation that carries out the shell panel on panel mounting conveyer belt 4 after finishing the detection, and the installation finishes afterwards and gets into packing conveyer belt 5 and pack the processing.

Furthermore, the installation conveyer belt 2 is cascaded end to form a plurality of groups, and each group is used for installing different devices.

Furthermore, transition conveyor belts are arranged between the installation conveyor belt 2 and the detection station 3, between the detection station 3 and the panel installation conveyor belt 4 and between the panel installation conveyor belt 4 and the packaging conveyor belt 5, so that the transition conveyor belts are used for transferring oiling machines in installation when the efficiency of each station is different and the speed adjustment of each station is still unable to be matched.

Referring to fig. 2 to 5, the automatic oiling machine frame overturning tool is mounted on the frame assembling station 1, and includes a base 101, a rest 102 is mounted at one end of the base 101, a overturning motor assembly 104 is mounted at the other end of the base 101, a buffer 103 is mounted on the rest 102, and a driving pinion 105 is sleeved on a rotating shaft of the overturning motor assembly 104;

one end of a large overturning frame 106 is placed on the buffer 103, the other end of the large overturning frame is hinged to the base 101 through a large overturning shaft 108 on a connecting lug plate 107 which is vertically arranged downwards, a pneumatic positioning pin 106.1 is vertically arranged on the large overturning frame 106, and a driven large gear 109 meshed with the driving small gear 105 is sleeved on the large overturning shaft 108; one end of the large roll-over stand 106, which is positioned above the large roll-over shaft 108, is hinged with a small roll-over stand 110 through a small roll-over shaft 111;

preferably, a small motor assembly 112 is fixedly mounted on the bottom surface of the large roll-over stand 106, the small motor assembly 112 drives a first transition shaft 113 to rotate, the first transition shaft 113 is parallel to the small roll-over shaft 111, two parallel second transition shafts 114 are perpendicular to the small roll-over shaft 111, and two ends of the second transition shafts 114 are respectively in meshing transmission with the first transition shaft 113 and the small roll-over shaft 111 through bevel gears, so that the transmission is more stable;

preferably, a plurality of rollers 110.1 are arranged on the small roll-over stand 110 in parallel;

preferably, the driven gearwheel 109 has a sector structure;

preferably, the buffer 103 is a polyurethane buffer block;

the use steps of the automatic turning tool for the oil engine frame are as follows:

assembling: the large overturning frame 106 is horizontally placed on the placing frame 102, the pneumatic positioning pins 106.1 are popped out and inserted into positioning holes of the frame profiles, and the frame profiles are connected with each other and installed to form a transversely arranged frame;

overturning the small overturning frame 110: after the standby frame section is assembled, the small overturning frame 110 is overturned for 180 degrees so that the small overturning frame 110 is vertically attached to the bottom of the frame upwards, and induction judgment is carried out through a proximity switch arranged on the small overturning frame 110 or the large overturning frame 106;

overturning of the large overturning frame 106: after the overturning motor assembly 104 is started, the large overturning frame 106 is driven to overturn forwards by 90 degrees through the meshing transmission of the driving pinion 105 and the driven bull gear 109; in the process of overturning the large overturning frame 106, the small overturning frame 110 which is vertically arranged overturns 90 degrees along with the large overturning frame 106 to a horizontal state, and the rack is vertically arranged on the small overturning frame 110 after being overturned to a vertical state; meanwhile, the small overturning shaft 111 rotates to be in a horizontal state by taking the large overturning shaft 108 as an axis and taking the distance between the small overturning shaft 111 and the large overturning shaft 108 as a radius, so that the gravity center of the small overturning shaft 111 is lowered to be in a parallel state with a subsequent conveying roller way in the process of overturning for 90 degrees to be horizontal;

the frame moves: the pneumatic positioning pin 106.1 retracts to push the rack on the small roll-over stand 110 to horizontally move to a subsequent conveying roller way;

resetting: the large overturning frame 106 is overturned backwards by 90 degrees to be in a horizontal state, and the small overturning shaft 111 is overturned by 180 degrees to be in a vertical downward state;

the automatic streamlined frame assembly production can be realized by reciprocating the processes.

Referring to fig. 6, a threading corrugated pipe pressing tool for an oiling machine, which is used for pressing a threading corrugated pipe of an oiling machine, is arranged beside the mounting conveyor belt 2, and comprises a working table 201, wherein a portal frame 202 and a pressing cylinder 206 are mounted on the working table 201, a pressing head 207 connected to a piston rod of the pressing cylinder 206 is opposite to a lower clamping block 205 mounted in the portal frame 202, a clamping cylinder 203 is mounted at the top of the portal frame 202, a piston rod of the clamping cylinder 203 penetrates through the portal frame 202 and then is connected with an upper clamping block 204, and the upper clamping block 204 is located right above the lower clamping block 205;

when the device is used, after the threading corrugated pipe with the upper nut screwed is placed on the lower clamping block 205, the clamping cylinder 203 is started, the upper clamping block 204 is driven to descend, the threading corrugated pipe is clamped between the upper clamping block 204 and the lower clamping block 205, and the end of the threading corrugated pipe is exposed to face the pressure head 207; then, the pressing air cylinder 206 is started, the piston rod of the pressing air cylinder 206 extends out and then the pressure head 207 is used for pressing the exposed end of the threading corrugated pipe, and the threading corrugated pipe does not need to be manually held by hands and a hammer is used for knocking deformation operation in the whole process, so that the risk of industrial accidents of hand injury is avoided;

further, semicircular grooves are formed in the lower bottom surface of the upper clamping block 204 and the upper surface of the lower clamping block 205, and a circular groove hole is formed by the two semicircular grooves after the upper clamping block 204 and the lower clamping block 205 are combined, and is positioned on a straight line with the pressure head 207 of the rod-shaped structure;

further, a protection plate 208 is encapsulated on the side surface of the gantry 202, and a through hole for the threading corrugated pipe to pass through is formed in the protection plate 208, and the through hole and the pressure head 207 are positioned on a straight line; thereby preventing the upper and lower clamping blocks 204, 205 from being pressed into the hand;

furthermore, the pressing cylinder 206 is covered in the protective cover 209, so that the pressing head 207 on the piston rod of the pressing cylinder 206 is prevented from pressing the operator, and further the protection effect is achieved;

referring to fig. 7 and 8, at least two groups of oiling detection systems special for oiling machines are arranged below the detection station 3, and each oiling detection system comprises a transition pipe 302 installed between an oil inlet pipe 301 and an oil outlet pipe 304 through flange connection, a flow meter 303 is connected in series on the transition pipe 302, control valves are connected in series on the oil inlet pipe 301 and the oil outlet pipe 304, a butt-joint ring 305 is fixedly sleeved on an oil outlet at the end of the oil outlet pipe 304, and the oil outlet pipe 304 is located below a detection hole 3.4;

a sealing ring 306 is embedded in a sealing groove formed in the upper annular surface of the butting ring 305, a clamping ring 307 is slidably sleeved on the oil outlet pipe 304, and a side baffle ring 308 is vertically and upwardly arranged outside the clamping ring 307;

a docking flange 309 is sleeved at a port of a fuel filling pipeline 311 in the fuel dispenser, the end face of the docking flange 309 is pressed on a sealing ring 306 of a docking ring 305, the clamping ring 307 moves upwards to be attached to the docking ring 305, and a side retaining ring 308 wraps the docking flange 309; a plurality of clamps are clamped between the butt flange 309 and the clamping ring 307, so that the fixing function is achieved;

furthermore, a clamping boss 310 with an annular structure is arranged on the butt joint end face of the butt joint flange 309, and the clamping boss 310 is located between the outer wall of the butt joint ring 305 and the inner wall of the side retaining ring 308, so that the sealing enhancement effect is achieved;

furthermore, a sealing caulking groove is arranged on the butt joint end face of the butt joint flange 309, and after the butt joint ring 305 and the butt joint flange 309 are butted, the sealing ring 306 is embedded in the sealing caulking groove, so that the sealing function is enhanced;

furthermore, the oil outlet pipe 304 is a metal corrugated pipe, so that the length can be conveniently adjusted;

the oiling detection system special for the oiling machine comprises the following use steps: the butt joint ring 305 is attached to the butt joint flange 309, then the clamping ring 307 is moved upwards, so that the clamping ring 307 is attached to the butt joint ring 305, and meanwhile, the clamping boss 310 on the butt joint flange 309 is embedded between the outer wall of the butt joint ring 305 and the side retaining ring 308, so that the butt joint accuracy of the butt joint ring 305 and the butt joint flange 309 is guaranteed; then a plurality of clamps clamp the butt flange 309 and the clamping ring 307, and the whole operation is convenient and fast;

when maintenance is needed, the control valves on the oil inlet pipe 301 and the oil outlet pipe 304 are closed, and the flange connection between the transition pipe 302 and the oil inlet pipe 301 and the oil outlet pipe 304 is disconnected, so that the transition pipe 302 and the flow meter 303 on the transition pipe can be quickly taken down for maintenance;

in addition: it should be noted that the above-mentioned embodiment is only a preferred embodiment of the present patent, and any modification or improvement made by those skilled in the art based on the above-mentioned conception is within the protection scope of the present patent.

Claims (10)

1. The utility model provides an tanker aircraft intelligence assembly line which characterized in that: the device comprises a frame assembly station (1), wherein an installation conveying belt (2) is arranged beside the frame assembly station (1), the installation conveying belt (2) is over against a detection station (3), the detection station (3) is over against a panel installation conveying belt (4), and the panel installation conveying belt (4) is over against a packaging conveying belt (5); the detection station (3) comprises a moving track (3.1) arranged on the ground, a moving trolley (3.2) is arranged on the moving track (3.1) in a sliding mode, sliding rollers (3.3) are arranged on two sides of the moving trolley (3.2) along the length direction of the moving trolley, a detection hole (3.4) is formed in the center of the moving trolley (3.2), and the length direction of the moving track (3.1) is perpendicular to the length direction of the moving trolley (3.2);

the oiling machine frame automatic overturning tool is mounted on the frame assembling station (1) and comprises a base (101), a rest frame (102) is mounted at one end of the base (101), an overturning motor assembly (104) is mounted at the other end of the base, a buffer (103) is mounted on the rest frame (102), and a driving pinion (105) is sleeved on a rotating shaft of the overturning motor assembly (104); one end of a large overturning frame (106) is placed on the buffer (103), the other end of the large overturning frame is hinged to the base (101) through a large overturning shaft (108) which is vertically arranged downwards and is connected with an ear plate (107), a pneumatic positioning pin (106.1) is vertically arranged on the large overturning frame (106), and a driven large gear (109) meshed with the driving small gear (105) is sleeved on the large overturning shaft (108); one end of the large overturning frame (106) positioned above the large overturning shaft (108) is hinged with a small overturning frame (110) through a small overturning shaft (111);

installation conveyer belt (2) other be provided with be used for carrying out a oiling machine threading bellows suppression frock of suppression to oiling machine threading bellows, a threading bellows suppression frock for oiling machine, its characterized in that: the clamping device comprises a worktable plate (201), wherein a portal frame (202) and a pressing cylinder (206) are installed on the worktable plate (201), a pressure head (207) connected with a piston rod of the pressing cylinder (206) is opposite to a lower clamping block (205) installed in the portal frame (202), a clamping cylinder (203) is installed at the top of the portal frame (202), the piston rod of the clamping cylinder (203) penetrates through the portal frame (202) and then is connected with an upper clamping block (204), and the upper clamping block (204) is located right above the lower clamping block (205);

at least two groups of oiling detection systems special for oiling machines are arranged below the detection station (3), and comprise a transition pipe (302) which is connected and installed between an oil inlet pipe (301) and an oil outlet pipe (304) through a flange, a flow meter (303) is connected on the transition pipe (302) in series, control valves are connected on the oil inlet pipe (301) and the oil outlet pipe (304) in series, and a butt-joint ring (305) is fixedly sleeved on an oil outlet at the end part of the oil outlet pipe (304); a sealing ring (306) is embedded in a sealing groove arranged on the upper ring surface of the butt-joint ring (305), a clamping ring (307) is slidably sleeved on the oil outlet pipe (304), and a side baffle ring (308) is vertically and upwards arranged on the outer aid of the clamping ring (307);

a port of a fuel filling pipeline (311) in the fuel dispenser is sleeved with a butt flange (309), the end face of the butt flange (309) is pressed on a sealing ring (306) of a butt ring (305), the clamping ring (307) moves upwards to be attached to the butt ring (305), and a side baffle ring (308) wraps the butt flange (309); a plurality of clamps are clamped between the butting flange (309) and the clamping ring (307).

2. The intelligent assembly line of fuel dispensers as set forth in claim 1, wherein: the bottom surface of the large roll-over stand (106) is fixedly provided with a small motor assembly (112), the small motor assembly (112) drives a first transition shaft (113) to rotate, the first transition shaft (113) is parallel to a small roll-over shaft (111), two parallel second transition shafts (114) are perpendicular to the small roll-over shaft (111), and two ends of the second transition shafts (114) are respectively in meshing transmission with the first transition shaft (113) and the small roll-over shaft (111) through bevel gears.

3. The intelligent assembly line of fuel dispensers as set forth in claim 1, wherein: a plurality of rolling shafts (110.1) are arranged on the small overturning frame (110) in parallel.

4. The intelligent assembly line of fuel dispensers as set forth in claim 1, wherein: the driven bull gear (109) is of a sector structure; the buffer (103) is a polyurethane buffer block.

5. The intelligent assembly line of fuel dispensers as set forth in claim 1, wherein: the lower bottom surface of the upper clamping block (204) and the upper surface of the lower clamping block (205) are both provided with semicircular grooves, the two semicircular grooves form a circular groove hole after the upper clamping block (204) and the lower clamping block (205) are combined, and the circular groove hole and the pressure head (207) of the rod-shaped structure are positioned on the same straight line.

6. The intelligent assembly line of fuel dispensers as set forth in claim 1, wherein: a protection plate (208) is packaged on the side face of the portal frame (202), a through hole for the threading corrugated pipe to pass through is formed in the protection plate (208), and the through hole and the pressure head (207) are located on the same line.

7. The intelligent assembly line of fuel dispensers as set forth in claim 1, wherein: the pressing air cylinder (206) is covered in the protective cover (209).

8. The intelligent assembly line of fuel dispensers as set forth in claim 1, wherein: a clamping boss (310) with an annular structure is arranged on the butt joint end face of the butt joint flange (309), and the clamping boss (310) is located between the outer wall of the butt joint ring (305) and the inner wall of the side retaining ring (308).

9. The intelligent assembly line of fuel dispensers as set forth in claim 1, wherein: and a sealing caulking groove is formed in the butt joint end face of the butt joint flange (309), and the sealing ring (306) is embedded in the sealing caulking groove after the butt joint ring (305) and the butt joint flange (309) are butted.

10. The intelligent assembly line of fuel dispensers as set forth in claim 1, wherein: the oil outlet pipe (304) is a metal corrugated pipe.

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